Introduction of Fiber Optic Splice Closure

by Fiber-MART.COM

Fiber optic splice closure is the equipment used to offer room for fusion splicing optical fibers. It also provides protection for fused fiber joint point and fiber cables. There are mainly two types of closures: vertical type and horizontal type. A large variety of fiber splice closures are designed for different applications, such as aerial, duct fiber cables and direct burial. Generally speaking, they are usually used in outdoor environment, even underwater.

 

1. Horizontal type splice closures look like flat or cylindrical case. They provide space and protection for optical cable splicing and joint. They can be mounted aerial, buried, or for underground applications. Horizontal types are used more often than vertical type (dome type) closures. Most horizontal fiber closure can accommodate hundreds of fiber connections. They are designed to be waterproof and dust proof. They can be used in temperature ranging from -40A degree to 85A degree and can accommodate up to 106 kpa pressure. the cases are usually made of high tensile construction plastic.

 

2. Vertical type of fiber optic splice closures looks like a dome, thus they are also called dome types. They meet the same specification as the horizontal types. They are designed for buried applications.

 

Applications splice closures provide room for splicing Outdoor Fiber Optic Cable together. fiber splice trays are needed too. they provide the perfect protection for outside plant fiber cable joints. fiber splice closures accept both ribbon and round fiber cables. Each type (ribbon or round cable) fits respective requirement of different fiber splicing counts. They are widely used in optic telecommunication systems.

 

Fiber Optic Splice closure Installation Steps

 

1.Fiber optic splice closure kit usually includes: end plate, splice tray organizer, fiber splice tray, cover, cable grommets, grommet retainer, mounting bracket and misc. hardware.

 

2. Fiber Cable Sheath Preparation

 

1)Expose the rip cord. This step involves marking the location with a tape marker, ring-cutting the outer jacket shaving off the outer jacket to expose the rip cord.

 

2)Remove the outer sheath. This step involves making a longitudinal slit down the outer sheath,peeling off the outer jacket and corrugated metal, and cutting the rip cord flush with the end of the corrugated metal.

 

3)Rewove the inner jacket. This step involves using the rip cord under the inner jacket to slit it, cutting aramid yarns, cutting central strength member, and cleaning the filling compound.

 

3. Bonding and Grounding Hardware Installation This step involves sliding the cable clamp over sheath, sliding the bond shoe under the corrugated metal, placing the bond plate over the bond shoe ans securing the sheath grip.

 

4. Assembly of Cables to Closure The preferable location for the two main cables is in the lower end plate port. If a third or fourth cable is required, it is easier to install it in the upper end plate port as a branch cable. This fiber optic splice closure is designed for two cables in each of its two ports. If only one cable will be installed in a port, the provided rubber grommet plug is used to substitute for the second cable.

 

1) Install Cables to End Plate. this step involves unscrewing knob and removing grommet retainer, positioning the end plate assembly, attaching the sheath grip to dielectric cables, sliding cables and sheath grip through, and securing sheath grip to backbone.

 

2) Grommet Installation and External Grounding. This step involves applying Bsealant, pushing the grommets into the end plate port, and applying more B-Sealant.

 

3) Fiber unit Preparation and Distribution Organizer Installation. This step involves removing more loose tubes,separating each cable’s loose tube into two groups, positioning the distribution organizer, securing the loose tubes.

 

4) Splice Tray Installation. This step involves placing the splice tray, fastening the end of the splice tray to the organizer, and installing cables, grommets and external ground.

 

5) Optical Fiber Splicing. This step involves splicing holder placing, fiber splicing and fastening the splice holder lid.

 

5.Fiber Optic Splice Closure Cover Installation.

 

6.Closure mounting

 

7.Reentry

How to Select the Right Fiber Patch Cable

How to Select the Right Fiber Patch Cable

by Fiber-MART.COM

A fiber patch cable, also known as fiber patch cord, which is widely applied to connect telecommunication equipment and backbone cabling, is a length of fiber optic cable capped at either end with connectors that allow it to be rapidly and conveniently connected to CATV, an optical switch or other telecommunication equipment.

As the fiber patch cables are used to cross-connect installed cables and connect communications equipment. The choice of fiber patch cable is very important to the performance of the network. Currently vendors offer fiber optic patch cables in a variety of cable and connector types. In order to select the right patch cable, some attributes needed to be obtained. They are fiber type, connector type on each end, simplex or duplex, jacket type and length. fiber-mart.com offers you the following tips to choose the proper fiber patch cable for your applications.

 

Choose the right fiber type—fiber patch cable should use the same fiber type as the fiber optic cabling that it is connected to. Fiber optic cable comes in two general types which are single-mode and multi-mode fiber.

 

Choose the correct connector type—the connectors on both end of fiber patch cable are used to connect to the patch panels and equipment. Connector types of the patch cable must match the patch panels and equipment. They can be the same and can also be different. For example, a fiber patch cable with a ST connector on each end is known as ST to ST patch cable. A fiber patch cable with a LC connector on one end and a ST connector on the other end is known as LC to ST patch cable.

 

Simplex or duplex—unlike copper patch cable which sends information in both directions, most fiber patch cord cables have a single strand of fiber allowing for signal flow in one direction only. A simplex patch cord is a single-fiber cable with simplex connection terminations. A duplex patch cord is a two-fiber cable with duplex connectors. Connecting equipment so that it can send and receive information requires two strands of fiber (one to transmit and one to receive information). This can be accommodated by using two “Simplex” (single strand of fiber) cables for each equipment interconnection or a “Duplex” cable, with conductors and/or connectors bonded together in pairs.

Jacket of fiber patch cable—flammability of the jacket material could become an issue if the area they are in has special requirements for flame spread or products of combustion in case of a fire. To answer the market call, there are LSZH fiber patch cable whose jacket is made of materials free of halogenated materials like fluorine (F), Chlorine (Cl), Bromine (Br), Iodine (I) and Astatine (At). This type of fiber patch cord won’t release low smoke zero halogen when it’s on fire.

 

Length—overall length of the patch cable may be specified in feet or meters, depending on your preference.

 

fiber-mart.com provides various types of fiber optic patch cables including single-mode, multi-mode, multi-core, armored patch cables, as well as fiber optic pigtails and other special patch cables. For most of the patch cables, the SC, ST, FC, LC, MU, MTRJ, E2000 connectors (APC/UPC polish) are all available. In addition, we also have MTP/MPO cables in stock.